private enum SimpleCursorOperation {
MERGE {
@Override
- void applyOnLeaf(final DOMDataTreeWriteCursor cursor, final PathArgument child,
+ void applyOnLeaf(final DOMDataTreeWriteCursor cur, final PathArgument child,
final NormalizedNode<?, ?> data) {
- cursor.merge(child, data);
+ cur.merge(child, data);
}
},
DELETE {
@Override
- void applyOnLeaf(final DOMDataTreeWriteCursor cursor, final PathArgument child,
+ void applyOnLeaf(final DOMDataTreeWriteCursor cur, final PathArgument child,
final NormalizedNode<?, ?> data) {
- cursor.delete(child);
+ cur.delete(child);
}
},
WRITE {
@Override
- void applyOnLeaf(final DOMDataTreeWriteCursor cursor, final PathArgument child,
+ void applyOnLeaf(final DOMDataTreeWriteCursor cur, final PathArgument child,
final NormalizedNode<?, ?> data) {
- cursor.write(child, data);
+ cur.write(child, data);
}
};
- abstract void applyOnLeaf(DOMDataTreeWriteCursor cursor, PathArgument child, NormalizedNode<?, ?> data);
+ abstract void applyOnLeaf(DOMDataTreeWriteCursor cur, PathArgument child, NormalizedNode<?, ?> data);
- void apply(final DOMDataTreeWriteCursor cursor, final YangInstanceIdentifier path,
+ void apply(final DOMDataTreeWriteCursor cur, final YangInstanceIdentifier path,
final NormalizedNode<?, ?> data) {
int enterCount = 0;
final Iterator<PathArgument> it = path.getPathArguments().iterator();
while (true) {
final PathArgument currentArg = it.next();
if (!it.hasNext()) {
- applyOnLeaf(cursor, currentArg, data);
+ applyOnLeaf(cur, currentArg, data);
break;
}
// We need to enter one level deeper, we are not at leaf (modified) node
- cursor.enter(currentArg);
+ cur.enter(currentArg);
enterCount++;
}
}
- cursor.exit(enterCount);
+ cur.exit(enterCount);
}
}